Automatic weigher.



C. L. BOND. AUTOMATIC ,WEIGHER. APPLICATION-YEW our. 28, 1909.

Patented Feb. 10, 19m

8 SHEETS-SHEET l.

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Emmi? C. L. BOND-.

AUTOMATIC WEIGHBR.

APPLICATION FILED 0G1.28, 1909v a SHEETS-SHEET mlmln r 24. msg

Patented Feb. 10, 1914.

C.L.BOND.

AUTOMATIC WEIGH'ER.

APPLICATION FILED OUT. 28, 1909. T

Patented Feb. 10, 1914,

8 SHEETS-SHEET 3.

C.L.BOND.

AUTOMATIC WEIGHEPI.

APPLICATION YILED OCT. 28, 1909.

Patented Feb. 10, 1914.

Vvvv Y J Q N G. L. BOND. AUTOMATIC WBIGHEB.

' nrmtmnon nun 001*. 2B, 1909.

1 7 7 Patented Feb. 10, 19m a sums-sum 5.

if /96 2 A59 I llllllu,

G.L.BOND. AUTOMATIC WBIGHER.

APPLICATION rum) OUT. 28, 1909.

"Patented Feb. 10, 1914.

a snnn'rs-rsnnm 6.

Fig.15. O 9

c. L BGND.

AUTOMATIC WEIGHER.

APPLICATION-FILED 0012a, 1909.

Patented Feb. 10, 1914.

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CL "1 g.

G. L. ,BOND.

AUTOMATIC WEIGHER. APPLICATION FILED 0012s, 1909. I

Patented Feb. 10, 191i I a SHEETS-811E111 a.

F1531 (Z2 5 36 g citiz'en .of1the "United. States,',resiiiing' at Los- -Angeles, in the-county of Los'Angelesand "State of GalifQI ia,' have.' invented "a new and useful Automatic VV'eigher of which. "the following is-a-spe'cificationQ I a machinewithlwhich certain substances,

1 great ease} and rapidit and with absolute jars, andshakings of transportation and frequent handling. that these materials be, thoroughly com-' pa'ctedb'efore sealing the'package. Anotherdifliculty encountered in; the processof fill: ing cans and other receptacles with tea or? b'baking-powder, is thatfin the case of tear weigher havingjsettling mechanism, and ineludes-means fortemporarilytenlarging the full waste-receive aibulk'of loose material larger than th'e (space allotted forthe material, 'ancl'j-"mean's for settlingthis bulk of thoroughly settle the" same into the can or p [other container at the time of Weighingthe deposited in the. receptacle lie loosely, upon each other in such "a. "manner that when a I can has been filled inthe ordinary manner In the case of baking-powder the'pajrticles 30,

- that is adapted todeliv ver the same. to the. container in aflimited or regulated stream,

acter'i that vthey {must be handledgently or The'invent'ion includes an electrical mechanism'for controll ng the machine from the cnAn Es L. BOND, or Los ANGELES; CALIFORNIA;

noromarrc wnrennn fBe it known that I, Crmnnns L. Born), a c

-' An' object 10f this-invention is to provide otherwise very' difficult to: Weigh automatically, can beautomaticall'y "weighed with accuracy. 1

Tea and baking-powder may named as substances which this apparatus is more per ticularlv'edesigned to weigh; With' each of these substances it, is very necessary to same. QThis is =truewith regardtoxtea for; the reason*that-,the-'tea-leaves when, first,

and then subjected to the agitation usually occurring in subsequent handling of the same, the bulk rapidly settles down, thus leaving the receptacle only, partially filled.

of the mass when first filled into the'can will occupy amuch greater space than'they will after-the canhas beensubjected tothe jolts,

Therefore it is necessary the. same is liable to clog in any apparatus,

andEth'e-E-teaTlea'vesare of such a brittle charoth-erwisefthe appearance of the same will] be greatly. depreciated.

l The 'n'vention -.con1prises an, automatic receptacle or "filling thereceptacle overloosematerial into the allotted space.

v v I Specification of Letters Patent. i Application filed 0cto ber 28, 1909. Serial II 0, 525,209;

thessame' in the, manner required weight of material.

,PatentedFe b. 10,1914.

scales as the scales are operated by the I some processes ot-automatic weighihg, u

,such as supplying: cartridges with charges of explosives, it may be'required that-the charge. when settled shall occupyless than, the entire space in the receptacle, and in other processes of automatic weighing it may be necessary to only-fill the receptacleheaping vfull, and then settle: the-surplus mto'thereceptacle,' so that it will be level lfull, while in1."w'eighing baking-powder, -.tea, and the like, it s necessary. totempo Y rarily enlarge the receptacle in order to get a sufiic'ientbu'lk oftheloose material to fill the I receptacle 1- pro per-'when; the material has i beens'ettl'ed. I. f

'An object of the "invention: is to 'accoin- 'plish the weighing} and settling of the ma- ;terialin allo tl the icontainers therefor by simple direct-mechanism, soconstructed and arranged that all the, containers, gex cepting the container which is-jatfany particular ,xnoment being 'filled and i weighed, are fja-tf all times easily accessible to the operator and open to his view, andreadily=removable"':'

from and; replaceable into position without 1 interrupt ng. the operation of the machine. Thatisto' say, by means of this; invention every can or; other receptacle exceptingthe], one momentarily being; weighed and filled,

1 is free t0, be removed-from the apparatus and replaced with-, anothercontainer at any time during the continuous operation the filling"and weighing beingaccomplished at asingle'station at wh-ich station the support .for' the receptacle is the scales platform by ratu's'so as to prevent any 'rapi'dfleli veryof purpose oi -automatic weighing; A

. An'object of this inventionis to for. the j i --.w an ,automatlc weigher which will avoid all '.'the objections andd'ifiiculties heretofore hbtaining' with-regard to the automatic weigh- I mg ofteaand baklngpowder and-materials subject to the cond'itions tabove enumerated." This invention relates to a class of auto; matic weighers in which anelectro-magnet i m loyed to' effect the operation of cutting ofl the stream of material. at such a time as to insure the deposition into the receptacle of the exactiweight of mass intended to he contained-.tlierein'."

Objects of the invention are :positive action, comparative simplicity, freedom from liability of getting out of order, ready and accurate adjustment for different sizes and shapes of receptacle, and for the delivery of material for various-sized packages; also convenience and easeof operation.

This invention includes the entire ma chine and the various combinations and parts thereof hereinafter more. particularly described, and may be embodied in various forms as awhole, and in its various parts.

I regard the invention as pioneer in that it accomplishes automatically the rapid weighing and compacting. of the named materials in a manner heretofore impossible.

Various objects, advantages and basic fea-. tures of novelty may appear from the subjoined detail description.

The accompanying drawings illustrate the invention.

Figure 1 is a "perspective view of an automatic weigher embodying the invention in a form at present deemed most desirable. The

carriage and certain other parts are adjusted toposition for filling long and large cans, -The cut-off is shown as just closed, the conveyer havingjust completed its backward stroke and being at the point of commencing its forward stroke, no part of the travel'having yet taken place. Fig. 2 is a fragmentary view in section through the carriage on a" vertical plane indicated by ve -00 Figs. 1,

6, 7 and 9, show'ingthe vibrator or means for settling contents of cans before capping them. Fig. 3- is a detached fragmentary view to illustrate the means for automatically operating the cut-off. Fig. i is an end elevation taken from the left. of Fig. 1 and the right of Fig. 6, the parts being shown'in. the position of Fig. '6, and the dotted posi-' tion of Fig. 5; the cut-ofi being closed. Fig. 5 is an enlarged fragmentary detail of parts shown in Fig. 1, the cut-off and the means .45 for operating the conveying mechanism being shown. The cut-off is shown open in solid lines and closed in'broken lines. Flg. 6 is a fragmentary rear elevation showing the carriage adjustedfor fillings'hort cans,-

and' operative parts inposition they occupy when the c'ut-ofi is just-about to openat the close of the forward stroke of the conveyer, which at the completion of such stroke will seat an empty can directly over the scalepan, as shown in Fig. 8, and directly underneath'the chute. Fig. 7 is a fragmentary plan showing the apparatus in operation, the conveyor having completed about halfits forward stroke, at which time the can last 60 filled is being shifted from'thescale-pan and an empty can is. being shifted thereonto. Portions of the hopper and the .chute are broken away to expose the conveyer and the cans. This view is taken looking from the rear side of the machine to correspond with stroke of the conveyor.

its fullest extent.

F 9. Fig. e is an enlarged fragmcntal plan of the carriage, showing the position of parts at the completion of the forward The can last filled has been shifted from the scale-pan and an empty can has been shifted to the center of the scale-pan ready to receive material from the chute. Dotted lines indicate the position of the conveyor-fingers when the same are ready to-be retracted. Fig. 9 is a fragmental rear elevation, of the lower part of the machine. Parts are shown in section. Fig. 1.0 is a fragmentary plan section on line "indicated by w m Figs. 4., 6 and 14,

showing the position of partsat the comple tion of a backward stroke of the conveyor. The cut-off is shown in position with chute open for fillinga can which appears in place thercbeneath. The co1'1veyerfingers are shown retracted in'position they occupy during the rearward stroke.- The position which said fingers are forced" into at the initial forward stroke of the convcyer-rod is indicated in broken lines; dotted lines 'in-. dicate hidden parts. Fig. 11 is an enlarged fragmental detailelevation from plane indicated by line 0: -w Figs. 6 and 10 to illustrate the device for operating in proper sequence the cut-off and the conveyor mechanism! Dotted lines indicate position of parts that are hidden, and broken lines indicate position parts assumeat the opening of the cu t-oif; The positions shown in solid and broken lines respectively in this view arothe "same as those'shown in corresponding lines in Fig. Fig. 12 is aseQtion on line indirection of the arrows and omitting the rock shafts and bell-'crank-levers shown in Fig. 11. Fig. 13Iis a broken detached view of part of the feeding device with parts in 190* sition to give access for cleaning and adcated by m x Fig. ll looking iii the dijusting interior parts thereof. In thisview the hopper is shown suspendedfrom its cap after the chute,. the brushes,.and the distributer disk havebeen removed. Fig. 1 1- isv a. sectional elevation on line indicated by af -a3, Figs. 6 and 10. The feedin device is closed and the cut-off open. Theposition occupied by the regulating handle when the distributer' is open to its fullest extent is 1 shown in broken lines. Fig. 15 is an enlarged fragmental plan section on line indi cated by m w ,Figs.14 and 16. Fig. 16 is anenlarged section on line indicated'by m a? Fig. 15, showing the means'for'obtaining an even distribution into the chute. The centrifugal distributer is shown open to Fig. 17 is an enlarged fragmentary detail showin the connection of the flexible stream-evening arms with the sleeve. device for fastening the stirrer-strand to Fig. 18 is an enlarged detail of'the the centrifugal head.- Fig 19 is a plan of the gate viewed from line 01 Figs. 4-, 5'

: 45 enlarging the-receptacle orfilling the recc'pand 14; 'Fig. 20, Sheet 3, is a detail in plan section on line 02,Fig. 6, of the adjustable to the scale-pan,

bearing ofthe' vertical shaft. Fig. 21, Sheet 3, is a fragmentary detail in axialsection of said bearing and shaft. Figs. 22, 23 and '24 are fragmental views toiillustra't'e tlle automat-ic means by which the powerv belt is shifted from the tight pulley .to the loose pulleyfiwhen the last can or other receptacle has passed from the magazine-plate plan view from the rear 0f the machine 1 showing the machine in opezracioa, ig. 23

I. isa fragm'ental elevation jrom the-front of T the: machine, showing the machine-inoperation with the 'fraglnentof thelast'can' fready to be removedfrom' the'fmaga-Zine-plate.

' .Etrate the form of evener or feed-device for "delivering tea to: the chute. Fig. 27 is a distributor-shown in Fig". 27.' =Fig. 29 is a plan the rotary-distributer shown. in Fig. 26.; ,Fig,1-28 is aside elevation of the perspective View of the rotary dist-ributer showninFig; 2,6, Eigs'. 3O M10131. Sheet 4,

are-fragmental perspective top. and bottom views respectively, of the rear and front vi brator-plates Fig-32 is avertica-l section ofthe fcar proper, with'the' enlargement applied said can and enlargement beingfull of-loose material. 'FigrB-i shows the mate rial. settled intoth'e can proper, and the enlargement disconnected. The" rnachine broadly considered com- "prises-in a general way the c oml'iination of feed1ng .means 1, strea1n'even 1ng means 2,

delivering means 3, means for temporarily tacle overfull, weighing means 4,- electric controlling means, conveying means 5, and

settling means 6, all of which means'are carried by afframeindicatcd in a general Way by'7, comprisinga bases, ufprlghts 9' and 10,-and a cross-head 11 composed of up- The' cross-head 11 may "per" and lower bars 12' and; 13, connected to eachother'by end-pieces'li fastened to said uprights 9 and 10,

structedfifi' It may be cast; or otherwise formedflof aj single piece, and is provided "with alini-ng bearings 15,-16, for alining verticalj s'haft 17 which is carried by an ad justable' bearinQ'IS controlled by lever 19 by-meahsofwhich said shaft may be moved -axiallyup and dowrifl said lever lflispiv oted at 20"to a hanger- 21 which isvpivoted-to" the fr'a1nefat-22,"and said leveris" Fig. 22 is a, fragmental.

be variously conf;

connected by a link 23 to a regulating handle 24 which is pivoted at 25 to anind1cator= plate 26 that is provided'with perforations 27 to receive apln or .detent 2801? the regulati'n' handle--24, thus to hold the-handle ii'e shaft atdet'ermined. positions. Saidshaft- 17 isdri ven with a pulley 29 driven by a belt 30" led over 't-wo'lead pulleys-.31, '32,

which arecarried by the frame at 'a'dista'nce from the. shaft-pulley 29 soaslto'allow a measure of up-and-down' movement of the shaft without derangemento'f the means for rotating theshaft. In each of the alining bearings is a shouldered collarBti s-upport- I ed by horizontalfadjusting screws 34, '34;

the purpo sebeingto hold the shaft coaxi'ally of achopper 35 and thejcylindricaloutlet 36 thereofis a centrifugal distributing head idstened on the shaft 17 above a-disk '38 that is of greater diameter than, and is adapted to open [and close the cylindrical outlet 30.

Said head 37 is provided with tangential arms 39 ofless radiu s'than the-cylindrical outletso that the head, may enter said outlet, thus to allow the disk 'tobe raised'into the position shown in Fig. '14-, to closethe outlet from the hopper. The disk and head 5 when partially or wholly lowered, provide a" laterally-opening space below the mouth ofsa-id outlet through which material passlng throu h said outlet may be discharged '1 centrifuga lly over the rim of the disk by.

the action of the arms 39. y v The disk '38 isfloose on the shaft 17 so that the-shaftmay rotate therein, and is supportedby asleeve- 40 which is held on said shaftby a set-screw ell and is provided with a plurality'of brushes in the form of flexible fingers 42 which are preferably rubber tubes of small diameter stuck onto and supported by wires 4-3 that project V from the sleeve 40. and tightly fit on and distend the inner ends of the tubes respectively.

The centrifugal head 37 is tightly screwed on an arbor 4st at the lower end of the shaft 17 so as torotatewith, and move up and.

down with said shaft. Thedisk is :loosely mounted onsaid arbor 4% to move 'up and down-With the shaft, and is held against rotation by a stay 45 consistingof a wire having an upr ght finger 46 extend mg into ah'olef471na flange 48 around the outlet 36 of thehopper 35.

A loosen ng device is connected-with "the shaft 17 to keepthematerial in the hopper and its cylindrical outlet loose within and free from stickingagainst the walls of the hopper and outlet, This device, asclearly.

shown in Fig. 14 and partly detailed in Figs. 15 and 16, conip1'ises .anarmfif) fixed to andextending outward fr m the shaft 17 inside the hopper 35; a cutter comprising iastrand-50 fastened at on'eend to thestirrer-arm andled thence'dowliward through the outlet 36, and connected with the distributor-head 37, and a tie 51 just above the hopper-outlet 36 to hold the strand in, so that the upper portion of the strand is aslant parallel with the inside wall of the conical hopper $35, and the lower portion of the strand is vertical parallel with the in side wall of the cylindrical outlet 36. The strand 50 is preferably a thin. piano wire 1/64 inch in diameter. Said arm 49 may be a thin strip, rod, or bar fixed in a bushing 52 that is tightly inserted into the upright shaft 17. The lower end of the cutter strand is preferably detachablv secured to the cen' movably fixed to the frame by bolts 58 in brackets 59.-

60 designates the inlet to thehopper, and

61 a conduit from a bin or receptacle 4 by which the material to be weighed may be constantly or otherwise supplied to the hopper.

' 62 designates a washer around the shaft 17 to cover theopeningfi in the cover 57 through which' the shaft 17 extends.

64 designates a spring held by a bolt 65 to retain the washer 62 in place to make the hopper dust-tight.

The hopper is adjustable vertically to- ;ward and from the stationary top 57 by means of hanger-rods 6G screwed into the top 57 and extending downward therefrom through perforated lugs 67 on the hopper The hopper is supported. on the hang ers 66 by struts .68 provided with arms 69 and 70; the upper strut-arm 69'be1ng per.-

forated and slidably mounted on thehangerrod (36, and the lower strut-arm 70 b eing slotted to swing onto and off from the hanger-rod 66, the struts being supported and clamped in place by thumb-nuts 71. By removing 'from below the hopper theparts which would interfere with its downward movement, loosening the thumb-nuts 71, and then swinging the struts 68 from above the thun'ib-nuts, the hopper may be lowered into the position shown in Fig. 13, thus to give access to the interior of the hopper.

7 2 designates a downwardly-tapering shell "of the stream-evener 2 for supplying to the chute 73 an even stream of the material to be weighed. The upper end of said shell is cylindrical, and said cylindrical portion contains the flexible fingers 42 which are preferably of suflicient length to brush .againstthe wall of the shell, as clearly shown in Figs. 14 and 15. Said shell also Qco'ntains the distributer-disk 38 and these Yparts are raised and lowered by the opera-.

tion of the regulating handle 24' which, when in its depressed position, as shown in Fig. 14, depresses the free end of lever .19 and raises the shaft 17 and holds the disk 38 tightly against the outlet end of the hopper toclose the same. As the handle 2-1 raised, the shaft 17 and the fingers 4-2, the disk 38, and the centrifugal head 37 are all, lowered correspondingly, thus leaving an open space below the outlet from the hopper'through 75 which materialmay pass .from the hopper into the evener-shell 72. In Fig. 16 the disk andthe evener fingers are shown in their lowest position, .the same being that into which they will be brought by moving the 30 handle 24einto the position shownin broken lines in Fig. 1 1.

In practical operation, the shaft'17 being driven at. a determined speed by the belt 30, will rotate the loosener 4'9, 50 and 51, the centrifugal head 37, and thefin ers 12; whereupon the material contained in the hopper will be cut loose from the walls of the hopper and its outlet by the loosener,

and the material which comes intoconta'ct I with the arms of the centrifugal head'will be thrown by said arms outwardly and discharged over the edge of the distrilniter-disk 38 and toward the walls of the shell 72, where it will'be acted upon by the flexible fingers 42, and'thereby evenly distributed over the downwardly'tapering wall of the shell 72 down which it will pass in a spiral course to the chute 73, down which it: will pass in a' regular stream. The handle Qlis adapted to be swung from and toward the plate 26 to withdraw and insert-the pin 28. By thus withdrawing the pin and then raising or lowering the handle 21 and then securing said handle in various positions by inserting the pin 28 into the required perforation 27, the machine can be so set that the delivery of material to the shell 72 will be regulated exactly as desired.

The shell 72 is detachably connected with the hopper by bolts 74 and thumb-nuts 75. The chute 73 is detachably connected with the distributer-shell 72 by bolts '76.

hen it is desired to lowervtheshopper as suggested above, the operator will first unscrew the thumb-nuts 7 5 and then remove the shell 72 together with the chute. This leaves the sleeve 40- and the set-screw 41 exposed, whereupon the set-screw may be loosened and the sleeve removed, thus allowing the disk 38 to be withdrawn from the arbor 41 and removing all impediments to the lowering of the hopper Thereupon the struts (38 may be loosened, and swung out, and the hopper lowered as above suggested. i I

It is important in practi'hal use that the amount of material delivered from the chute 7? into the can or other receptacle in which it,is to be weighed, shall be invariably the same for each of a series of packages, and the delivering means of this weigher is therefore provided with cut-off means operable by scales 77.

78 is the gate for the chute 73. is carried independently of the chute by a link 79 pivoted to the gate at the lower end thereof by-a pivot 80, and loosely connected to the top of the gate by a slotted arm 81 which serves as a guide and stop for the upper end of the gate.

82 designates guides atthe sides of the top of the open mouth of the chute 73, between which guides the gate 78 is resiliently held by spring 83 connected with the link 79 which is pivoted at 84 tothe gate-operatingarm 85, to which the other end of the spring 83 is connected by the arm 86.

87 is a bar extending across the mouth of the chute at the top thereof between the guides 82 to hold the gate which is provided at its upper end with a book 88 to engage the bar 87 when the gate is. closed.

The gate-operating lever 85 is a rigid arm on a rocleshaft 89 which is connected by an arm 90 with a spring 91 which is adjustably connected by a notched handle 92 with the frame of the machine by means of pin 93 upon which the notches 94 of the handle will catch to hold the handle so as to give such greater or less tension to the spring as may be required to force the gate down into the chute-closing position shown in Fig. 4, when the rock-shaft is left free to respond to said spring. 7

95 is a stop rigidly fixed to the rock shaft to resist the spring when the gate 78 has reached said closed position.

96 is a link connected at one end with an arm 97 of the rock-shaft 89, and at the other end with a latch-shadt-arm 98 which is rigidly connected with a latch-shaft 99, that carries a latch 100 adapted tov engage a keeper lOlwhich is operable by an electromagnet 102 that is energized by an electric circuit 103 adapted to be closed by the --scales 77 when overbalanced by the weight of the filled container, as can 104, when the same as appropriately charged.

By means of the elements just described, the latch may be released and the gate 78 closed in an instantaneous manner to cut off the flow of material through the chute 73 into a can or other container to be weighed on said scales.

105 is a circuit-maker to close the electriccircuit 103 and operable by the scales on the descent of the weighted pan 106 of the scales bearing a weight, as 107, to keep the circuit open while the can is being filled. The

gate 78 may be again opened and latched in its open position by manipulation of manual means, as for instance, .by lifting up on the stop-arm 95 until the latch is again brought mto position to be caught by V The same the keeper. Said stop 95 thus affords manual .means for bringing the gate to its latched open position.

108 designates a scale-pan. in the form of a plate in front'of and below the mouth of the chute 73 and on a level with the top of a table 109, that is fastened to the frame 7 and extends horizontally in front thereof fora considerable extent in order tov give time for shaking the filled packages after they have been weighed. Said scale-pan 108 is free from all parts of the table and is detachably connected with the beam of the scale by a standard 110 seated in a socket 111 carried by the scale-beam.

In order to insure rapid weighing, automatic-meansare provided for returning the chute-gate 78 to its latched open position. For this purpose and for other purposes which willhereinafter appear, provision for application of power to the machine is made, as indicated by a power belt 112 which may apply power to a pulley 113 of the lineshaft 114, which carries a loose pulley 115 to which the belt may be shifted by the beltshifter 116, as indicated in Fig. ,6, when it is not desired to drive the machine.

The path formed by the table to and from the scale-pan is straight and horizontal and at the normal level of the scale-pan, sothat the cans 104 may move from one to the other end of the path in the simplest and most practical mannen- V 117 is a sprocket-wheel on the line shaft 114 to drive a sprocket-chain 118, which in turn drives a sprocket-wheel 119 arranged to drive a crank-shaft 120 which has adjustably mounted at one end thereof a crank 121, the pin of which works in a slotted link 122 that is pivotally connected with an arm 123 that is adjustably fixed on the gateoperat-ing rock-shaft 89.

b designates set-screws for adjustably fixing the crank 121 on the crank-shaft and the cut-off rock-shaft-arm 123 on the rock-shaft.

The crank 121, the link .122, and the rockshaft-arm 123 are adjusted to such relative positions that when the rock-shaft is in the gate-closing position, the crank-pin, upon the revolution of the crank 121, will engage the closed end of the slotted link 122 and will draw the link rearwardly, thus to rock the rock-shaft sufliciently to lift the gate 78 into the open position shown in Fig. 5. Preferably, the direction of the crank 121 is forward at the upper portion of the stroke, and the pivot 124 of the rock-shaft arm 123 is approximately on a level with the pin of the crank 121, as shown in broken lines in Fig. 5, at the beginning of the operative portion of its stroke, so that as the crankpin operates the slotted link, the line of draft will be in the most effective direction for operating the cut-off rock-shaft, as indicated by the two positions of the link shown iao in Fig \Vhenv-th'e roclcsln'rft is'thus rockedtoope'n the gate, the latch 100 comes into'thc'latcliing position shown in Figs. 3, and. 14,, and is caught by thekeeper 101, to be roleisedhgain when the scales are T 'balanced by a weight on the scale-pan,

whereby theelectric-circuit is closedto energize the 'clectromagnet to 'liftthe keeper l0l which is an armature of said magnet,

. and to. withdraw the same froint-hepath of lVhen the rock-shaft is thuslatched. in position to hold the gatccpen, contact is made'in the electrical circuit be the latch.

tween :1 contact-spring 125 and contact-pin -126, that is carried by the latch-shaft 95) to break the circuit whenever. the-latch moves fro-m its latched position. By-this means the circuit is always broken'either at the circuit maker 105 or at the latch, except at the moment-before the latch isreleased by the-ope'rationof the circuit-maker 105, when the scale-beam tilts under the weightoit' the package on the scale-pan 108.

127 a spring-operated belt-tightener for tightening the sprocket-chain 118.

Itis evident that the time requlred vfor filling, a can depends upon' the rapidity and the volume ofthe stream of material flo wing thereinto .from the chute.73,, and consequently the operation of the'gate cannot be allowed to occur at each rotationof the sprocketwheel 119. The sprocket-wheel119 is loosely mounted on the crank shaft 120, and clutch means are provided for connecting the sprocket-wheel with the shaft when it is de sired to rotate said shaft. For this purpose the sprocket-wheel is provided with a circular series of'detents 128,-and the crankshaft is provided with an arm' 129 to which I is pivoted a dog 130 bya pivot 131. The-dog 130- is normally held by' a spring 132 in position to engage the detents 128. 133 is a trip arranged to engage the heel 134: of the dog l30-and to withdraw said dog from thepath of the detents 128, and to hold the dog in, -that position so .long as the trip 133 is in tripping position. Said trip is mounted on a bell-crankshaft 135, and is operable by'alink 136 pivoted at one end to an arm'137 of the bell-crank and at the otherend to an" arm 138 of the gate-o erating rock-shaft 89. The trip 133' and he rock-shaft- 89 are I relatively arranged so that when the -rockthe crank-shaft 120 and consequently the shaft begins to turn to close'thegate, the trip will be withdrawn from the heel of the dog 130, thus allowing the spring 132 to throw the dog into position to engage a .detent 128. Upon such engagement the arm 129 of the crank-shaft will be carried around with the sprocket-wheel 119, thusrotating crank 121, so that Within" the period of one rotation of the sprocket-Wheel 119 the slotted link 122 will be operated to retract the rockshaft 89 and the gate .78.

.The trip 133 is so arranged relative to the other parts that u hen the gate is open the trip-will be in the path of the heel of the dog 130 at a point forwardly from that at which the crank has retracted the-slotted link 122 sufliciently to open the gate; so that shortly after the ,gateis opened the heel 134 of the .dog130 will engage the trip 133 and thereby the dog 130 is withdrawn from the detents, thus releasing the crankshaft 120 and allowing the-sprocket-wheel 119 to continue its rotation withoutoperating. the crank-shaft 120.

139 is a stop to prevent the dog from rotating too far on its pivot 131, so that when the dog has been withdrawn from the path of the detcnts-l28 the dog serves as a stop to hold the arm 129 of the crank-shaft from further rotation until the tripe-arm 133 is withdrawn from the path of the heel of the dog by the gate-closing movement of the rock-shaft 89. The top ot' the table 109.is provided with a slot 110 to accommodate the scale-pan 108 and two vibrator plates 14:1, 142, the former of which plates is beveled or rounded at thc end next the scale-pan 108 to allow the receptacles to-slide freely from the, scale-pan- I onto said vibrator plate 11-1. The scale-pan.

is likewise rounded at ltS front end to receive.

eration of shaking the receptacles to settle the material therein, must be performed intermittently in order that the receptacles may be stationary during the operation of filling, and that, the scales. may be undisturbed at the moment the weighing takes place. F or this purpose the means for vi- 'brating the vibratory plates and the means for conveying the receptacles along the table over the scale-pan and said plates, are

set in motion from the intermittcntly-moving crank-shaft by a crank-arm 1 15 on the crank-shaft 120, a connecting-rod 1416 connected wlth said crank-arm, a bell-crank journaled to the 'frame at 14:7 and provided with arms .148 and 1419, the first ofwhich is connected with the Connecting-rodl lG and the latter-connected by a connecting-rod= with the conveyer.

The convey'er comprises a number of fingers 151 that are. respectively pivoted by pivots 152 and 153 to a reciprocating finger rod 154- and a sliding carriage-bar 155; Said finger-rod 154 is 'pivotallyconnected. with the connecting-rod l50jbyxmeansof a sleeve- 15G loosely mounted ona .pin 157ethatis} fixed to. a clamp 158 ustably clamped *j mam.

' uponvthefreciprocating finger-rod 154; y

The e'arri'a'ge bar155, is slidably connectedwithxthe vLCzible.by;guides 1 59, 160, 1'6 "l,f-andf provided-witha stop at 162- to l e-engaged able stops and 164 spaceda'part therefrom on therod; 154eywherbya'limited movement of alternately {on its opposite sides by'adjustthe rodi relatively to the carriage-bar 155 isaprovide'd' fort-he purpose of, swinging the 15 v is 'formed'hetv'veen the, guide-rail 165' that I runs between gnide-rollers 166 which are 7 oarrid-bytable 109. Said'guide-i'ail 165 is adjustablyi connected? with the; carriage-bar- 155 a slotted head-167 and an arm, at

fingers 151 into and out 0t thecamway which 162, an'd 'the-guide-ro'llei's. 16,6 are adjustable transversely fot' the table, =being "mounted for this purposejojnrod's168that are adjustably Said standards and guide'rods are arranged 3 to allow thefguide-rail to'be shiftedfcleartp the'sideof the t'ab'le oppositethe a riage \bar1'55, thus to leave an open space above: 40} the table for theremo'vallof the vibrato17 1 plates 141 and 142when desired. When the 'i ail isltlius shifted,- the rods 168.pro j'ect zf rom the" standards to fo rm,- outside itheft able; brackets on which said plates, may be supported convcnientlyat, hand 'for -replace cans of a det'ermined diameteljthe machine .Thecar1iage-bar 1- 55 and the-rail 165an-d head 167 attachedithereto; form a carriagement.

having sufficient inertiato' hold stationary the'pivots 153 onwhieh the fingers swing until the movementl'of the ,fi'nger rod alongside thec'arriage-banhas caused the arm at 162 to engage either thezst0p 163 or the stop 164 on the carriage-bar, whereupon the an ther movement oftheifihge'r-rodcauses the carriage to move. likewise, thus'carrying the vfingers ln'one'or theother direction as'the Jcase maybe at the forward movement; The

I I fingers will thus first'beprojected into the can-way between the'earriage-bar and guide; rail, and Wlll then be mo ved along'suc'h way to advance such cansor other containers as may be .in said way/ This movement con,-

tinues until the completion of the forward stroke of-the finger-rod. Then at'the initial .fin'gers 151 moves the, fingers into the path return movementofaid rod, the same'operates as before to swing the fingers, but n' the contrary direction, tl1 us'"-ren1oving the fingers from the can-way untilfthe arm at 1G2 engages thefIear'stop 164; Then the carriage with its finger-sis returned to initial position ready, for a repetition of the movevmovement ofthe finger-rod 154 carrying the of the cans, and the finge'rs move thecans to the'rail 165 and t11en along the rail. .17]; is an inward extension of the rail 16:)

intents: 'just' above described. The forward atthe portion thereof which moves into and from position above the scalepan: 108, so

that when the first one of the conveyerdin- Egers loldordcs a canI10-Lt onto the scale-pan 108 at the forwardmovement of the carriage, the inward extension 171 of the rail 1G5 prevents the can from movinginto' line with the inner edge of the rail 165, so that on' thg return movement of the carriage which withdraws the extension 171 away from abotejthe scale-pan 108, "the zean" 104 will be left free from any contact except that vwith the scale-pan upon which it stands.

By reference to Fig. 8 the-position into vhieh ithe fingers 151 are retracted; upon thevlin ti'al retract ngmovement of the con-- veyer rodi loi, Iwill be seen';-.said.fingers be ng? at the-in tial movement; of said rod 1154 drawn entirely. out of the' path of the :.cans.:' The amplitude of thefcarriage mox ennnt *ishqual to the length' of the scalepangand the forward limit ofthe ca-rriage" fmoi 'ementmustbe .suchas to 'c ause the eon-1- veyerj finger's which liavemoved a can onto the scale-pan108 to advance said can on'lytov a central position" on the scal'ei panj,- It; a

t-herefore necessary injoperating' up on cans .of "different dian1eters' that tlie carriage.be adjustable relative' tothe eonnecting1odl50. This adjustment accomplished-by the To adjust thciinachine to operate uponwill heIbrought intoposition' with the c on yeyer-fingers 151 at their farthest torward limit'; thenkthe'clamp 158 and the set-screws 170,and'the thumb-nut 172,;t-h1is leaving the v carriage-tree to be adjusted 'lengthwisef of I the table," and the rail 165 to be adjustedfl laterally of i the table. Then the "carriage maybe moved by means ofthe rod 155 .with

out displacing the position-0f the fingers. relative tl1e1eto,'an'cl' the rail He'd-being i'n of the carriage, and the extension. 171 against the can, thus centrally located. Then the clamp"158,' the set-screws 170, and the bring the fin ers 171v against the rear side thumb-nut 17 2 will be tightened, whereupon the machine is ready for operation upon cans of the size to which it has thus been regulated. 1

By the construct-ion above detailed, each rotation of the cam-shaft effects a complete forward and backward movement of the carriage; consequently, when the shaft is rotated and the chute is closed, the car:

riage makes a forward and backward move-.- ment thus advancing the cans each time the chute is closed;

Since the rotation of the crank-shaft as above explained, can only occur when the rock-shaft is in position to allow the. gate ;78,to close the chute, there is no displacement of the can from below the chute while the chute is open.

normally position.

35 moving with the pin of the connecting-rod tracts the level-.188. Said button .187- is ar- 1 173-and173 designate cams and 174 .174 designate vertically-reciprocating vibrator operating-rods slidably mounted in vertical wa s 175' and 175 and en a 'in g e g blocks 176thatsup'p0rt and vibrate the.

vibrator-plates 142 and 141 vertically. Said cams RIG'fiXGd on a shaftI1-77 carried by adjustablehangers 1T8and 179, and adapted to be clutched with androtated by a pulley 180 which is driven by a belt- 181 led from fa anOtherfb-rward stroke.

provided with another adjustable button 187' pulley 182 on the line-shaft 114.

The pulley 180 is held clutch d with the cam-shaft 177 bya spring-pressed shifting device'183, the spring 184 of whichtte n ds to hold the pulley 18(I'clutching 185 is a tripping'dev-ice carried by and 150 which operates the conveyor-rod 15.4.

186 is an adjustable button on the trip 185 to engage the shifting device 183 at the close of the return movement of the connectingrod 150, thereby to withdraw the pulley from clutching position and to hold-it with-'- drawn until the connecting-rod 150 makes Said trip is also arranged to engage a lever 1j88 jto lift a weighted. arm 189 that normally depressesthe weight-carrying end'of the scale-beam by engaging withan insulated arm 190 at all times except w'henyjthe button 187- reranged to retractthe lever 18 8 at the close of the rearward movement of the connecti being filled -the scale-pan is positively sup-' ing-rod 150..

By the means just describedthe scales are" held in position-with the scale-pan 108 ele vated to a level with the vibrator weight at all times when; the fingers are shifting the ean and also during the greater periodof the retraction of -fsaidfingers; so that .while the cans are being moved during the greater portion of the time that the can is .3 ported by the pressure of the weighted arm and it is only at the close of the retracting movement of the carriage that the scalcs are left free to effect the weighing.

In practical operation the operator will adjust theregulating handle 24 to such po-' sition' that the discharge of material over the edge of-the' disk 33 will be suflicient' to supply to the chute during the forward and backward travel of the carriage, nearly enough material to: fill the can, so that the filling. of the can will be practically completed at the moment the.carriage st-op's'on its return. I

Thekdelivery of material .to the chute is continuous, and since the gate. 7 8v is closed during the forward movement of the carriage, an accumulation of material occurs in the chute against the gate so that'when the gate is open a-deposit of considerable charge suddenly occurs, thus largely filling the can at once, after which the material fills more slowly into the can until the'can is sufiiciently filled. In order that a sufiicien't amount of material may be delivered to each can to comple'tely .fill the same when the can has been subjected to the action of the vibratorplates, detached enlargements 191 areprothe cans by the operator before the cans reach the scale-pan, and. to be removed from the cans after the same have reached 144at the end of the table.

The enlargements 191 serve as a means for temporarily enlarging the cansso that the enlarged cans will hold'the bulk of" enough loose material to fill the cans proper Whensettled. The lower 'endsof .the enlargements tel'escope'with the upper'ends of the cans so as tobe supported. The loose material n ay extend toj 'the top of the enlargements 'videdtobe'manually fitted into the tops of 191, and when settledlthe material may all and then the loose material settled into the allotted space. In anyevent, if the bulk of the loose material is greater than the.allotted space it may be said that the receptacle is overfull'and that the bulk of the material must be reduced by settling.

The vibrator-plates 141, 142 are loosely connected together by means of a strap 193 fixed to the vibrator-plate 142, and provided with perforations 194 throughwhich pins 195 fixed to the first vibrator-plate 141 ex-' tend. Said strap supports the forward'end of the vibrator-plate 141 while the rear end thereof 'is supported by legs 192.

When the vibrator-cams are rotated, the

95 the rest the scale-mechanism, and so that. When the I "receptacles havepassed through the settling mechanism "the bulk of material will be 'settledinto'ithe allotted space and the recep tacleswill be ready for closing. Y I

It is'obvious .thattmany variations and changes may be'made" in the details of conof my invention.

struction with0ut.de.parting from the spirit- \vayin which the receptacles to. be weighed "travelto the filling'andweighing mecha- ---Iand weighing mechanism, mechanism for" nism of-suchweigher and from said fillingtemporarily "enlarging the receptacles so that the receptacles may be enlarged, overjfilled with a larger-bulk, weighed, and

201. ,gremoved-substanti'ahy "as and for the pura ose set forth.- 3

QF A n automatic weiglier having mecha- 'nis'm'for temporarily enlarging the receptacls,'.;mechanism for filling the enlarged settled, the enlargementsbeing free to: be

11 rece tacleswith loose material to the de- Sire} weight and passing the receptacles along in succession, and mechanism -shak1ng-v the receptacles and thereby settling f prOper after they have passed-from the weighing mechanism. l

-. 3; A automatic weigher hav ng mechafor the} loose material within the receptacles fnisnigfor temporarily enlarging the rece'p tacles,mechanism for moving the enlarged receptacles in succession horizontally to and v f over'the scales, mechanism for filling the en- 1 --'larged receptacles with loose material upon the scales, mechanism for moving the filled 4'0.

enlarged receptacles horizontally from the 1 scales, and'mechanism for shaking-the re'-- ceptacles while they are moving from' the scales and thereby settling the material within the receptacles proper.

'45" hopper discharging.downwardly through a Q4. IA "feeding mechanism comprising a central opening, a shaft vertically mounted inthe-hopper and-extending through the openingand' a'd'apte d for' up and-down adjustment, a disk upon the shaft in position to regulate the passageth'rough the opening by adjusting the-shaft, andan agitator carried. by the shaft. I

5. A feeding mechanism comprising'a receptacle dischargin downwardly, adjustable means for reguating .the discharge, an agitator for breaking .up the material above [the discharge, and brushes for distributing the material below the discharge.

.6. A feeding mechanism comprising a receptacle discharging downwardly, av shaft mounted vertically and adjustably in the discharge opening, a disk upon the shaft for'regulating'the flow through the open- In an automatic weigher for weighing "material in receptaeleshavin'g a horizontal ing, and a centrifugal distributing head aboye the disk. j

7. Stream-even1ng means compr sing a charging into the shell from above and at below the regulating means. I

8. Stream evening means comprising a mounte upon the shaft for adjustably regulating the the shaft in the shell below the. distributing head.

table, ascales mounted-with the scale-pan lin lifiewith thexsurface of the stationary table, a vibrating table at the opposite side means for passingrecepta cles. from the stationary table overthe scale-pan to theviof the'receptacles V.

10. In, an automatic weigher, a. stationary table, a scales mounted with the surface of the scale-pan inline with the surface of the stationarytable, a vibrating table at the opposite side ofthe scale-pan from the-stationary table, means for passingreceptacles from the stationary table over-the scale-pan to thevibrating table step by step, means for and'means whereby the operation of the scale-pan regulates. the passage of the receptacles and the filling of the receptacles.

11. A loosening device comprising the cally mounted in the hopper and a distributer-head upon the shaft, of' an'arm extending outwardly from theshaft above the distributer-head, and astrand attached to the outer end of the arm and extending head".vv 12.-A loosening device comprising the combination witha hopper, a shaft vertically mounted in the hopper and a disdistributer-head, a strand'attached tolthe outer end of the arm andextending downwardly and attached to the distributer-head,

mediate part of the strand.

downwardly-tapering shell, a receptacle dis its axial center, a shaft mounted in the dis.- charge-opening andextending into the shell, means upon the shaft" for regulating the flow to the shell, andbrushes upon the shaft downwardly --tapering shell, a hopper dischargin downwardly into the'sl1ell, ashaft?- vertically in the hopper "andex-- tending downwardly into the shell, means extent upon the scale-pan, th operation ofthe scale-pan serving to regulate the filling filling the. receptacles upon 'the scale pan,

combination withahopper, a shaft vertidownwardly and attached to the distributertributer-head upon the shaft, of an arm 'extending outwardly from the shaft above the flow from the hopperto the shell, a. centiifugal distributing head upon the shaft and discharging into the shell, and. brushes upon ios and a tie connecting the shaft to an inter. v

13. A feeding mechanism comprising a hopper having an opening discharging downwardly, a shaft vertically mounted in the hopper, anv adjust-able bearing upon the shaft, a lever -pivo tally mounted for moving the bearing up and down so as to move the shaft up'and down, a regulating-handle,

a connection between the regulating-handleand the lever, an indicator-plate, and a detent carried by the regulating-handle "to engage theindic ator-plate so as to raise or lower the shaft in the hopper and hold the .shaft in its adjusted position. I v

14. A feeding mechan sm comprisin a hopper, discharging downwardly throug a central opening, a shaft mounted vertically in-the hopper and in-said opening, means foradjusting ."the shaft up and down, a

distributor-head on the lower' end of the shaft in said opening, and a plate upon said shaft below the distributer-head and large enough to close said opening, so that by adjusting the shaft up and down the feedfrom y t-he, hopper may be regulated.-

15. A- feeding mechanism comprising a hopper discharging downwardly through a .central opening, a shaft vertically mounted in the hopper and extending through the opening and adapted for up and down. ad-

justinent, 'a' disk upon theshaft in position to regulate the opening, and means for bold mg the diskagainst rotation.

-16. A feeding mechanism comprising a hopper discharging downwardly, a shaft mounted vertically, in. the hopper, a cover for the hopper, said shaft extending through the center of: the cover, and a washer fitting closely around the shaft upon the cover to prevent dust passing, downwardly through the cover y 17. A feeding mechanism comprising a hopper discharging downwardly through a central opening, a shaft mounted vertically and 'adjustably in the discharge-opening,

and a disk removably mounted upon the shaft in position-to close and regulate the flow throughthe openingby the adjustment of the shaf 1 7 '18. A chute discharging downwardly, a gate slidingly' mounted to open and close the chute, a rock-shaft,'an arm rigidly fixed upon therock-shaft, a link connecting the arm to the gate, an adjustable'spring for holding the gate yieldinglycloscd, a second ,arm extending from 'the rock-shaft, a link connected to the second arm, a latch-shaft,

a latch-shaft arm rigidly connected to the latch-shaftfand connected to the link, a latch carried by the latch-shaft, a keeper to been- .gaged by the latch, an electrosniagnet for operating the keeper, andmeans whereby the electro-magnet'is energized by the .de-.-

pression of-the scales so that when the def sired weight is attained the magnet is'energiz ed'to release the gate,- and the gate 19. In an automatic weigher, a' station vibrating table in line with. the'scale-pan, a

second vibratingtablein line with'the first vibrating table, means for passing recep scale-pan to the vibrating tables, means vfor operating 'the'vibrating table's at-difi'erentrates of speed" and different intensity, means ary'table, a scales mounted with the scale- 1 pair in line with the stationary table, a

tacles. from the stationary table over the for filling the receptacles upon the scale-pan to the desired extent,- the weight of the fill- -ing serving to operate the scale-pan and set into operation the mechanism for advancing the receptacles and operating the vibrators' 20; In an automatic weigher, a stationary table, a scales mounted with the scale-pan in line with the stationary. table, "a'settling mechanism at the opposite side of the scalepan'from the stationary table, a series of receptacles adapted to be mounted uponthe stationarytable means for temporarily enlarging the receptacles, means for advancing .the receptacles from the stationary table over the scalepan tothe' settling mecha-- nism, and means for filling the receptacles overfull upon the scale-pan.

'21. In an automatic weigher, a stationary table, a scales mounted with the-scale-pan in line with the stationary table, settling mechanism at the opposite side of the scal.e-.

pan from the stationary table, a second stationary table beyond the settling mechanism, and means for advancing the receptacles from the first stationary table dver the scale-pan through the settling mecha nism to the second stationary table, and

means for filling. the receptacles to the de- 65 instantly 'closed by the action of the spring. 7 

